Precision gene editing can be achieved by base editing, nucleotide editing, or editing of small or large gene fragments. The specific mechanisms include various DNA repair pathways. Many precision ...

Genome editing has advanced at a rapid pace with promising results for treating genetic conditions—but there is always room for improvement. A new paper by investigators from Mass General Brigham ...

Tools such as CRISPR can edit genes with precision, but the process of determining which genes to target is costly and slow, ...

Profluent has staked a claim at the intersection of some of the buzziest terms in biopharma. The protein-focused artificial intelligence startup believes that its large language models can help extend ...

Zinc finger nucleases (ZFNs) have great potential for translational research and clinical use. Scientists succeeded in the efficient construction of functional ZFNs and the improvement of their genome ...

Gene editing is now reaching the mainstream, ushering in a new era of genetic manipulation. Traditionally, inserting or deleting entire genes, regulating their expression, and altering specific ...

Scientists have worked tirelessly to develop ever more precise and efficient CRISPR-Cas systems to reach the ultimate goal: safe and effective CRISPR-Cas-based medical treatments. Over the years, ...

A new gene-editing technique enables the correction of multiple genetic mutations simultaneously, transforming the prospects for millions living with complex inherited diseases, such as cystic ...

Targeted DNA editing by CRISPR technology has great potential for applications in biotechnology and gene therapy. However, precise gene editing remains a challenge largely due to insufficient control ...